Scalar diquark mass and quark--diquark potential from lattice QCD using the potential method with a static quark

Abstract

We study the scalar diquark mass and the quark--diquark potential by applying a HAL QCD-inspired potential method to a baryonic system composed of a scalar diquark and a static quark. The diquark mass is determined self-consistently by requiring that the p-wave baryonic spectrum obtained from two-point correlators be reproduced within the potential framework. Numerical calculations are performed using 2+1 flavor QCD gauge configurations generated by the PACS-CS Collaboration on a L3 × T = 323 × 64 lattice with a-1 ≈ 2.176 GeV and the pion mass, mπ ≈ 702 MeV. From the analysis, we obtain a scalar diquark mass which is close to the na\"ıve constituent quark estimate (2/3)mN, together with a quark--diquark potential of the Cornell type (Coulomb + linear). The string tension extracted from the quark--diquark potential agrees within approximately 5% with that obtained from the static quark--antiquark potential (Wilson Loop).